Flexible power: The stretchable, waterproof magnetoelastic generator. (Courtesy: Jun Chen/UCLA) The future of bioelectronics – including wearables, implantable devices and smart technologies – hinges ...

Every year, tens of thousands of people with signs of Parkinson’s disease go unnoticed until the incurable neurodegenerative condition has already progressed. Motor symptoms, such as tremors or ...

Physicists show that magnetoelastic coupling, present in nearly all magnets, can generate skyrmion arrays without crystal asymmetry or spin-orbit coupling. (Nanowerk News) Physicists have proposed a ...

A team of bioengineers has invented a novel soft and flexible self-powered bioelectronic device. The technology converts human body motions -- from bending an elbow to subtle movements such as a pulse ...

(Left) Photo of the magnetoelastic sensor array, which conforms to human skin and can function even when exposed to liquid. It can interact with a music speaker's command components: play, pause, next ...

Scientists describe the development of a type of wearable human-machine interface device that is stretchable, inexpensive, and waterproof. The device is based on a soft magnetoelastic sensor array ...

What the magnetoelastic effect is and how it can be used. How an innovative design and fabrication technique led to a flexible magnetoelastic device. How this unique device can be used for both energy ...

A team of bioengineers at the UCLA Samueli School of Engineering has invented a novel soft and flexible self-powered bioelectronic device. The technology converts human body motions — from bending an ...

Nickel–manganese–gallium foams connected internally by sizeable single-crystalline elements provide magnetic-field-induced strains comparable to free-standing bulk single crystals, and demonstrate ...